人类皮肤传入神经中缓慢钾离子电导的生理学证据。
Physiological evidence for a slow K+ conductance in human cutaneous afferents.
作者信息
Taylor J L, Burke D, Heywood J
机构信息
Department of Clinical Neurophysiology, Price Henry Hospital, University of New South Wales, Sydney, Australia.
出版信息
J Physiol. 1992;453:575-89. doi: 10.1113/jphysiol.1992.sp019245.
Abstract
- The depression in axonal excitability that follows short trains of impulses (H1) may lead to spike frequency adaptation to a sustained stimulus, and has been attributed to a slow K+ conductance. The present experiments sought indirect evidence for slow K+ channels at the node of Ranvier of human cutaneous afferents based on the demonstration of post-tetanic changes in excitability typical of H1. 2. The excitability changes in low-threshold cutaneous afferents in the digital nerves of the index finger were explored using a submaximal test pulse conditioned by trains of supramaximal stimuli, containing up to 100 impulses. Changes in the amplitude of the compound sensory action potential set up by a constant test stimulus were used as a measure of the changes in excitability. These changes in amplitude were paralleled by inverse changes in latency. 3. When the conditioning stimulus was a single supramaximal pulse, excitability was enhanced at conditioning-test intervals of 4-40 ms, with a peak at 6-8 ms. When the conditioning stimulus consisted of a train of ten pulses delivered at 200 Hz, the recovery cycle was dominated by subnormality that was maximal at 20 ms and subsided gradually over 50 ms. 4. The post-train depression in excitability increased as the number of pulses in the conditioning train increased to ten but changed little with further increases in train duration. The degree of depression increased with the pulse frequency within the train. Cooling the hand from a skin temperature of 35 to 25 degrees C slowed the recovery processes but did not alter the magnitude of the post-train depression. 5. These characteristics are typical of the H1 phase of post-tetanic depression in axonal excitability. The extent of the depression in excitability suggests, first, that there may be a significant K+ conductance at the nodes of human cutaneous afferents and, secondly, that H1 may play a significant role in limiting repetitive discharge in normal and pathological afferents.
摘要
- 短串脉冲(H1)后轴突兴奋性的降低可能导致对持续刺激的锋频率适应,并且这被归因于一种缓慢的钾离子电导。本实验基于对典型H1的强直后兴奋性变化的证明,寻求人皮肤传入纤维郎飞结处存在缓慢钾离子通道的间接证据。2. 使用由包含多达100个脉冲的超强刺激串作为条件刺激的阈下测试脉冲,来探究示指指神经中低阈值皮肤传入纤维的兴奋性变化。由恒定测试刺激产生的复合感觉动作电位的幅度变化被用作兴奋性变化的指标。这些幅度变化与潜伏期的反向变化平行。3. 当条件刺激为单个超强脉冲时,在4 - 40毫秒的条件 - 测试间隔内兴奋性增强,在6 - 8毫秒时达到峰值。当条件刺激由以200赫兹发放的一串十个脉冲组成时,恢复周期以低于正常为主,在20毫秒时最大,并在50毫秒内逐渐消退。4. 强直后兴奋性降低随着条件刺激串中脉冲数量增加到十个而增加,但随着刺激串持续时间的进一步增加变化不大。降低程度随着刺激串内的脉冲频率增加而增加。将手从皮肤温度35摄氏度冷却到25摄氏度会减慢恢复过程,但不会改变强直后降低的幅度。5. 这些特征是轴突兴奋性强直后抑制H1期的典型表现。兴奋性降低的程度首先表明,人皮肤传入纤维的结处可能存在显著的钾离子电导,其次表明H1可能在限制正常和病理性传入纤维的重复放电中起重要作用。
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